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IL-27 production and regulation in human dendritic cells treated with the chemical sensitizer NiSO4 . Rami Bechara, Myriam Nabhan, Diane Antonios, Hayat Azouri, and Marc Pallardy Chem. Res. Toxicol., Just Accepted Manuscript • DOI: 10.1021/acs.chemrestox.8b00203 • Publication Date (Web): 13 Nov 2018 Downloaded from http://pubs.acs.org on November 15, 2018

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Chemical Research in Toxicology

IL-27 production and regulation in human dendritic cells treated with the chemical sensitizer NiSO4 . Rami Bechara †, ‡, Myriam Nabhan †, Diane Antonios ‡, Hayat Azouri ‡ and Marc Pallardy †. † Inflammation Chimiokines et Immunopathologie, INSERM, Fac. de pharmacie - Univ.ParisSud, Université Paris-Saclay, Châtenay-Malabry, France; ‡ Laboratory of Toxicology, Faculty of Pharmacy, Saint-Joseph University, Beirut, Lebanon.

Corresponding Author: [email protected]; +33 0146835492

Running Title: IL-27 regulation by nickel

ACS Paragon Plus Environment

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ABSTRACT Allergic contact dermatitis (ACD) is a major cause of occupational skin disease and nickel is among the most prevalent contact allergens. Dendritic cells (DC) play an important role in ACD and in the type of the ensuing immune response through differential phenotypes and cytokine production. The interleukin (IL)-12 cytokine family is composed of heterodimeric cytokines sharing homology at the subunit, receptor, and signaling levels. We previously showed that nickel can upregulate the production of IL-12p40 and IL-23, both known to be proinflammatory. In this work, we aimed to extend our knowledge on nickel-regulation of the IL-12 cytokine family by focusing on IL-27, a recently identified immunomodulatory cytokine from this family. We showed that nickel induced the production of IL-27 in human monocyte-derived DC (MoDC) regulating IL-22 production by human CD4+ T cells. We also showed that nickel was able to induce the expression of the two subunits of IL-27: il-27p28 and ebi3. Furthermore, we demonstrated that the production of IL-27 was dependent on the TLR4, p38 MAPK, NF-κB and Jak-STAT signaling. However, IL-27 subunits were differentially regulated by these pathways. Indeed, both subunits were positively regulated by the TLR4 and NF-κB pathways but only il-27p28 was also dependent on p38 MAPK and Jak-STAT pathway. Our results contribute to a better understanding of nickel-induced ACD by focusing on the IL-12 cytokine family and elucidating the mechanism of IL-27 regulation in human dendritic cells.


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INTRODUCTION

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Allergic contact dermatitis (ACD) is a common inflammatory skin disease caused by an

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unnecessary immune response to topically applied allergens

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epidemiological study, 27 % of the general population in 5 European countries suffer from ACD

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to at least one of the common contact allergens and nickel was among the most prevalent one2. In

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fact, metal allergy is the most frequent type of contact allergy, with nickel allergy affecting 14.5

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% of the European population2. People are mostly exposed to metals by contact with jewelry,

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clothing ornamentation and coins. From an immunological point of view, ACD is the result of T-

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cell activation mediated by T cells recognizing low-molecular-weight chemicals or metals ions

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presented by antigen-presenting cells such as dendritic cells (DC)3. However, the presence of the

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contact sensitizer per se is usually insufficient to promote a T-cell response. A second signal,

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noted “danger signal”, is mandatory for effective DC activation and subsequent T-cell priming1.

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Nickel is the perfect example of a “complete” contact sensitizer that follows this “two-signal”

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hypothesis. Alongside its ability to act as an antigen 4, nickel ions can directly trigger activation

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of human Toll-like receptor 4 (TLR4) on DC5. As a consequence, intracellular signaling

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pathways, such as mitogen-activated protein kinase (MAPK), NF-κB and interferon regulatory

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factor (IRF)-1 signaling pathways6–12, are activated in DC leading to their maturation. Thereby,

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activated DC produce various cytokines and chemokines required for T-cell proliferation and

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polarization.

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It is well known that the IL-12 heterodimeric cytokine family plays an important role in driving

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T-cell polarization and linking innate immunity with the development and the regulation of

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adaptive immunity13. This family, which includes IL-12p70, IL-23, IL-27 and IL-35, consist of

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an α-chain (p19, p28 or p35) and a β-chain (p40 or Ebi3). Despite chain-pairing similarities, the


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. According to a large

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IL-12 cytokine members have different biological activities. IL-12p70 and IL-23 are both

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considered to be pro-inflammatory and implicated in the development of Th1 and Th17 cells,

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whereas different immunomodulatory roles for IL-27 have been reported13.

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We have previously shown that NiSO4 induced an early production of IL-23 by DC and a higher

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IL-23/IL-12p70 ratio, promoting Th17 cell development regulated by the TLR4 and Jak-STAT

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signaling pathways14. In this work, we aimed to expand our knowledge on nickel-modulation of

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the IL-12 family members by focusing on IL-27 regulation in human DC. Our results showed

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that nickel was able to induce the production of IL-27 in human monocyte-derived DC (MoDC),

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in a concentration dependent manner, and the expression of both IL-27 subunits: il-27p28 and

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ebi3. The inhibition of IL-27 produced by nickel-activated MoDC increased IL-22 production by

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allogeneic CD4+ T cells and did not affect T-cell proliferation. Moreover, we found that the

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TLR4, p38MAPK, NF-κB and Jak-STAT pathways played an important role in IL-27 production

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by nickel-treated MoDC. Although both subunits were positively regulated by TLR4 and NF-κB

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pathways, only the il-27p28 subunit was also regulated by the Jak-STAT and p38 MAPK

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pathways suggesting the implication of different signaling pathways in IL-27 subunits

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expression. Our results contribute to a better understanding of nickel-induced ACD by focusing

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on IL-12 cytokine family regulation and elucidating a novel role for IL-27.

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MATERIALS AND METHODS

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Generation of human MoDC.

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Buffy coats were collected from the Etablissement Français du Sang (EFS, Rennes, France) from

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anonymous healthy donors after approval for experiments and written informed consent.

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Peripheral blood mononuclear cells were purified from buffy coats by density centrifugation on a

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Ficoll gradient (lymphocyte separation medium; PAA, Les Mureaux, France). The preparation of

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MoDC was previously described 12.

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Chemical treatment of immature MoDC.

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MoDC were treated or not with nickel sulfate (NiSO4; 500 µM), nickel chloride (NiCl2; 500

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µM), and LPS (25 ng/ml) (Sigma-Aldrich, USA) for the indicated time. In some experiments,

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MoDC were treated with IFN-γ (1000 U/ml, Abcys). To study the involvement of signaling

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pathways in IL-27 production, MoDC were either pretreated for 1 h with anti-TLR4 or isotype

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control (BioLegend, San Diego), for 30 min with SB203580 (20 µM), for 1 h with BAY 11-7085

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(3 µM) or for 2 hrs with Jak Inhibitor I (0.5 µM) (Merck Chemicals, Darmstadt, Germany).

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NiSO4, NiCl2 and SB203580 were diluted in Ultrapure water (milli-Q®, Millipore corporation).

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BAY 11-7085 and Jak inhibitor I were both diluted in dimethyl sulfoxide DMSO (95%) of CD4+ T-cells was

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confirmed by flow cytometry. In some wells, human anti-IL-27 neutralizing Ab or control goat

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IgG (10 µg/ml; R&D Systems, Minneapolis) were added to NiSO4-activated MoDC 1 h before

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the co-culture. At day 5, cytokine production was analyzed as described below. In some

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experiments, allogeneic CD4+ T-cells were labelled with 0.5 µM CFSE (Invitrogen) and then co-

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cultured with MoDC (105 cells/ml). Five days later, CD4+ T-cell proliferation was analyzed by

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flow cytometry and expressed as the percentage of CFSE low cells.

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Quantification of cytokine production

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Human IL-27 ELISA assays were performed on culture supernatants of MoDC treated or not

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with nickel, and measured in duplicate, according to the manufacturer’s instructions (R&D

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Systems, Minneapolis). To assess T-cell polarization, MoDC/CD4+ T-cell coculture

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supernatants, obtained after 5 days of coculture, were measured in duplicate for cytokine


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contents. IL-22, IL-17A, IFN-γ, IL-5, IL-13, IL-9 and IL-10 were quantiﬁed using MSD

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multiplex assay, following manufacturer’s instructions (Meso Scale Discovery, Gaithersburg,

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MD, USA).

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Statistical analysis

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Data are expressed as mean ± SD. Differences between groups were evaluated with the

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Wilcoxon signed rank test or the Mann–Whitney U test (GraphPad, La Jolla, CA). The p values

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IL-27 Production and Regulation in Human ... - ACS Publications

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